A 0.18- mu m CMOS 3.5-gb/s continuous-time adaptive cable equalizer using enhanced low-frequency gain control method

This paper describes a high-speed CMOS adaptive cable equalizer using an enhanced low-frequency gain control method. The additional low-frequency gain control loop enables the use of an open-loop equalizing filter, which alleviates the speed bottleneck of the conventional adaptation method. In addit...

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Veröffentlicht in:	IEEE journal of solid-state circuits 2004-03, Vol.39 (3)
Hauptverfasser:	Choi, Jong-Sang, Hwang, Moon-Sang, Jeong, Deog-Kyoon
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptation Adaptive control systems Cables CMOS Coaxial cables Equalizers Gain Prototypes
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creator	Choi, Jong-Sang Hwang, Moon-Sang Jeong, Deog-Kyoon
description	This paper describes a high-speed CMOS adaptive cable equalizer using an enhanced low-frequency gain control method. The additional low-frequency gain control loop enables the use of an open-loop equalizing filter, which alleviates the speed bottleneck of the conventional adaptation method. In addition, combined adaptation of low-frequency gain and high-frequency boosting improves the adaptation accuracy while supporting high-frequency operation. The open-loop equalizing filter incorporates a merged-path topology and offers infinite input impedance, which are suitable for higher frequency operation and cascaded design. This equalizing filter controls its common-mode output voltage level in a feedforward manner, thereby improving bandwidth. A prototype chip was fabricated in 0.18- mu m four-metal mixed-mode CMOS technology. The realized active area is 0.480.73 mm super(2). The prototype adaptive equalizer operates up to 3.5 Gb/s over a 15-m RG-58 coaxial cable with 1.8-V supply and dissipates 80 mW. Moreover, the equalizing filter in manual adjustment mode operates up to 5 Gb/s over a 15-m RG-58 coaxial cable.
doi_str_mv	10.1109/JSSC.2003.822774
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The additional low-frequency gain control loop enables the use of an open-loop equalizing filter, which alleviates the speed bottleneck of the conventional adaptation method. In addition, combined adaptation of low-frequency gain and high-frequency boosting improves the adaptation accuracy while supporting high-frequency operation. The open-loop equalizing filter incorporates a merged-path topology and offers infinite input impedance, which are suitable for higher frequency operation and cascaded design. This equalizing filter controls its common-mode output voltage level in a feedforward manner, thereby improving bandwidth. A prototype chip was fabricated in 0.18- mu m four-metal mixed-mode CMOS technology. The realized active area is 0.480.73 mm super(2). The prototype adaptive equalizer operates up to 3.5 Gb/s over a 15-m RG-58 coaxial cable with 1.8-V supply and dissipates 80 mW. 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The additional low-frequency gain control loop enables the use of an open-loop equalizing filter, which alleviates the speed bottleneck of the conventional adaptation method. In addition, combined adaptation of low-frequency gain and high-frequency boosting improves the adaptation accuracy while supporting high-frequency operation. The open-loop equalizing filter incorporates a merged-path topology and offers infinite input impedance, which are suitable for higher frequency operation and cascaded design. This equalizing filter controls its common-mode output voltage level in a feedforward manner, thereby improving bandwidth. A prototype chip was fabricated in 0.18- mu m four-metal mixed-mode CMOS technology. The realized active area is 0.480.73 mm super(2). The prototype adaptive equalizer operates up to 3.5 Gb/s over a 15-m RG-58 coaxial cable with 1.8-V supply and dissipates 80 mW. 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The additional low-frequency gain control loop enables the use of an open-loop equalizing filter, which alleviates the speed bottleneck of the conventional adaptation method. In addition, combined adaptation of low-frequency gain and high-frequency boosting improves the adaptation accuracy while supporting high-frequency operation. The open-loop equalizing filter incorporates a merged-path topology and offers infinite input impedance, which are suitable for higher frequency operation and cascaded design. This equalizing filter controls its common-mode output voltage level in a feedforward manner, thereby improving bandwidth. A prototype chip was fabricated in 0.18- mu m four-metal mixed-mode CMOS technology. The realized active area is 0.480.73 mm super(2). The prototype adaptive equalizer operates up to 3.5 Gb/s over a 15-m RG-58 coaxial cable with 1.8-V supply and dissipates 80 mW. Moreover, the equalizing filter in manual adjustment mode operates up to 5 Gb/s over a 15-m RG-58 coaxial cable.</abstract><doi>10.1109/JSSC.2003.822774</doi></addata></record>
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subjects	Adaptation Adaptive control systems Cables CMOS Coaxial cables Equalizers Gain Prototypes
title	A 0.18- mu m CMOS 3.5-gb/s continuous-time adaptive cable equalizer using enhanced low-frequency gain control method
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